/**
* Copyright (c) 2025 Huawei Technologies Co., Ltd.
* This program is free software, you can redistribute it and/or modify it under the terms and conditions of
* CANN Open Software License Agreement Version 2.0 (the "License").
* Please refer to the License for details. You may not use this file except in compliance with the License.
* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND, EITHER EXPRESS OR IMPLIED,
* INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT, MERCHANTABILITY, OR FITNESS FOR A PARTICULAR PURPOSE.
* See LICENSE in the root of the software repository for the full text of the License.
*/

/*!
 * \file kernel_operator_vec_ternary_scalar_intf_impl.h
 * \brief
 */
#ifndef ASCENDC_MODULE_OPERATOR_VEC_TERNARY_SCALAR_INTERFACE_IMPL_H
#define ASCENDC_MODULE_OPERATOR_VEC_TERNARY_SCALAR_INTERFACE_IMPL_H
#include "kernel_tensor.h"
#include "kernel_struct_unary.h"

#if __NPU_ARCH__ == 1001
#include "dav_c100/kernel_operator_vec_ternary_scalar_impl.h"
#elif __NPU_ARCH__ == 2002
#include "dav_m200/kernel_operator_vec_ternary_scalar_impl.h"
#elif __NPU_ARCH__ == 2201
#include "dav_c220/kernel_operator_vec_ternary_scalar_impl.h"
#elif __NPU_ARCH__ == 3002
#include "dav_m300/kernel_operator_vec_ternary_scalar_impl.h"
#elif __NPU_ARCH__ == 3102
#include "dav_m310/kernel_operator_vec_ternary_scalar_impl.h"
#elif __NPU_ARCH__ == 3101
#include "dav_c310/kernel_operator_vec_ternary_scalar_impl.h"
#elif (__NPU_ARCH__ == 5102)
#include "dav_m510/kernel_operator_vec_ternary_scalar_impl.h"
#endif
#include "kernel_check.h"

#pragma begin_pipe(V)
namespace AscendC {
/*
 * @ingroup Axpy Level 0
 * @brief dst[i] = src[i]*scalar + dst[i]
 * @param [out] dst output LocalTensor
 * @param [in] src input LocalTensor
 * @param [in] scalarValue input scalar number
 * @param [in] mask[]/mask mask array/count
 * @param [in] repeatTime repeat times
 * @param [in] intriParams.dstBlkStride dst block stride
 * @param [in] intriParams.srcBlkStride src block stride
 * @param [in] intriParams.dstRepStride dst repeat stride
 * @param [in] intriParams.src0RepStride src repeat stride
 */
template <typename T, typename U, bool isSetMask>
__aicore__ inline void Axpy(const LocalTensor<T>& dst, const LocalTensor<U>& src, const U& scalarValue,
    uint64_t mask, const uint8_t repeatTime, const UnaryRepeatParams& repeatParams)
{
#if ASCENDC_CPU_DEBUG
    MaskSetter::Instance().SetMask(isSetMask);
    if (!CheckFunVecBinaryScalarDiffType(dst, src, scalarValue, mask, repeatTime, repeatParams, "Axpy")) {
        ASCENDC_REPORT_CHECK_ERROR("Axpy", KernelFuncType::MASK_COUNT_MODE);
    }
#endif
    AxpyImpl<T, U, isSetMask>((__ubuf__ T*)dst.GetPhyAddr(), (__ubuf__ U*)src.GetPhyAddr(), scalarValue, mask,
        repeatTime, repeatParams);
}

template <typename T, typename U, bool isSetMask>
__aicore__ inline void Axpy(const LocalTensor<T>& dst, const LocalTensor<U>& src, const U& scalarValue,
    uint64_t mask[], const uint8_t repeatTime, const UnaryRepeatParams& repeatParams)
{
#if ASCENDC_CPU_DEBUG
    MaskSetter::Instance().SetMask(isSetMask);
    if (!CheckFunVecBinaryScalarDiffType(dst, src, scalarValue, mask, repeatTime, repeatParams, "Axpy")) {
        ASCENDC_REPORT_CHECK_ERROR("Axpy", KernelFuncType::MASK_BIT_MODE);
    }
#endif
    AxpyImpl<T, U, isSetMask>((__ubuf__ T*)dst.GetPhyAddr(), (__ubuf__ U*)src.GetPhyAddr(), scalarValue, mask,
        repeatTime, repeatParams);
}

/*
 * @ingroup Axpy Level 2
 * @brief dst[i] = src[i]*scalar + dst[i]
 * @param [out] dst output LocalTensor
 * @param [in] src input LocalTensor
 * @param [in] scalarValue input scalar number
 * @param [in] count number Number of data involved in calculation
 */
template <typename T, typename U>
__aicore__ inline void Axpy(const LocalTensor<T>& dst, const LocalTensor<U>& src, const U& scalarValue,
    const int32_t& count)
{
#if ASCENDC_CPU_DEBUG
    if (!CheckFunVecBinaryScalarDiffType(dst, src, scalarValue, count, "Axpy")) {
        ASCENDC_REPORT_CHECK_ERROR("Axpy", KernelFuncType::CALCOUNT_MODE);
    }
#endif
    AxpyImpl<T, U>((__ubuf__ T*)dst.GetPhyAddr(), (__ubuf__ U*)src.GetPhyAddr(), scalarValue, count);
}
} // namespace AscendC
#pragma end_pipe
#endif // ASCENDC_MODULE_OPERATOR_VEC_TERNARY_SCALAR_INTERFACE_IMPL_H
